6533b859fe1ef96bd12b7ffd

RESEARCH PRODUCT

The Factorization Method for Electrical Impedance Tomography in the Half-Space

Martin HankeBirgit Schappel

subject

Harmonic functionPlane (geometry)Applied MathematicsBounded functionInverse scattering problemMathematical analysisFunction (mathematics)Half-spaceInverse problemElectrical impedance tomographyMathematics

description

We consider the inverse problem of electrical impedance tomography in a conducting half-space, given electrostatic measurements on its boundary, i.e., a hyperplane. We first provide a rigorous weak analysis of the corresponding forward problem and then develop a numerical algorithm to solve an associated inverse problem. This inverse problem consists of the reconstruction of certain inclusions within the half-space which have a different conductivity than the background. To solve the inverse problem we employ the so-called factorization method of Kirsch, which so far has only been considered for the impedance tomography problem in bounded domains. Our analysis of the forward problem makes use of a Liouville-type argument which says that a harmonic function in the entire two-dimensional plane must be a constant if some weighted $L^2$-norm of this function is bounded.

yearjournalcountryeditionlanguage
2008-01-01SIAM Journal on Applied Mathematics
https://doi.org/10.1137/06067064x